Self Balancing Single axle Robot

Team: Blue Thunder

ITSP 2012

IIT Bombay

Team members :

Mentor :

Inverted Pendulum

Technique used in making

the self balancing robot

is same as the principle

used in balancing of the

Inverted Pendulum.

Balancing Principle

• When the robot starts to fall in one direction, the wheels should move in the falling direction to correct the inclination angle.

• When the deviation from equilibrium is small, wheels should move gently and when the deviation is large wheels should move more quickly.

• It is the acceleration of the robot (not the velocity) that is forcing the robot platform to go to the horizontal level again .

• As soon as the robot accelerates in a

particular direction we can find that the

torque due to the pseudo force in the non-

inertial frame of accelerating robot opposes

the torque due to gravity and if it is high

enough (obviously depends on acceleration)

it can bring the robot platform back to the

horizontal level.

We made chassis of the robot in the

first week.

Working on the electrical level in the second

week, we made following motor driver circuit

consisting of L293D,IC 7805,7809

Final robot (ready for calibration)

• Not good to use this battery due to high weight.

New Light Weight Battery

(Li ion Battery)

Important part (Calibration)

• The video was of the robot with simple 60

rpm dc motors.

• It failed to get balanced properly.

• Reasons are:

motors do not give fast response

Inadequate acceleration (and so pseudo force)

Center of gravity much above the wheel axle.

What is the soultion?

• To make the response fast we should use fast responce giving motors.

• To increase the acceleration we should increase motors rpm from 60rpm to higher rpm (say 150 rpm)

• We can lower the centre of gravity by shifting the circuit and battery to the bottom. .

• So finally , we need to replace simple 60 rpm

dc motors by 150 rpm Johnson Motors

giving fairly fast respnce.

Thank You